Invention content
The object of the present invention is to provide a kind of better coalignments of alignment effect.
In addition, the purpose of the present invention further includes providing a kind of better aligning method of alignment effect.
To achieve the goals above, the present invention provides a kind of coalignment of viscosimeter rotor, wherein the coalignment packet
Pedestal and briquetting are included, the top surface of the pedestal is formed with linearly extended first alignment groove, and the bottom surface of the briquetting is formed with
Linear extension and the second alignment groove opposite with the first alignment groove location, the bottom surface of the briquetting can be towards described
The top surface movement of pedestal compresses, and the side wall straightening to be straightened groove by described second is located at viscous in the first alignment groove
Degree meter rotor.
Preferably, the cross section of the first alignment groove and the second alignment groove is V-shaped.
Preferably, the V-arrangement angle in the section of the first alignment groove and the second alignment groove is 30 °~90 °.
Preferably, the top surface of the pedestal is provided with guide part, and the briquetting presses to the pedestal along the guide part.
Preferably, the guide part is the locating rod perpendicular to the top surface of the pedestal, and the briquetting is formed with location hole
To allow the locating rod to pass through.
Preferably, the coalignment further includes screw rod and pressure nut, which hangs down upwards from the top surface of the pedestal
Straight stretch out simultaneously passes through the through-hole that position is opposite on the briquetting, and what the pressure nut was set in the screw rod passes through the through-hole
Screw portion on, moved towards the pedestal with squeezing the briquetting by rotating the pressure nut.
Preferably, the viscosimeter rotor includes the rotor head and the body of rod being connected with each other, and the body of rod is placed on described
Between first alignment groove and the second alignment groove, the first alignment groove and the second alignment groove identical one
End is respectively formed with the first rotor head pockets and the second rotor head pockets to place the rotor head, described
It is recessed that the width and depth of the first rotor head pockets and the second rotor head pockets are more than first alignment
The width and depth of slot and the second alignment groove.
Preferably, the top surface of the briquetting is equipped with handle member.
In addition, the present invention also provides a kind of aligning methods of viscosimeter rotor, wherein the aligning method use according to
The coalignment of viscosimeter rotor described in any one of upper scheme, the aligning method include:Viscosimeter rotor is placed
In the first alignment groove of the pedestal;Make the second of the briquetting to be straightened groove and be aligned in the first alignment groove, pushes away
It moves the briquetting and moves compression towards the pedestal, to be straightened the viscosimeter rotor.
Preferably, the aligning method further includes cleaning:School is waited for by 800 DEG C~900 DEG C of high temperature quenching cleaning
The surface of straight viscosimeter rotor.
Preferably, the cleaning further includes:Use quality percentage for 10%-40% HF solution soaking and washing institute
State viscosimeter rotor 4h-10h.
Preferably, the aligning method further includes detecting step:Whether the viscosimeter rotor after detection alignment meets alignment
Standard is continuing with the coalignment and is straightened the viscosity if the viscosimeter rotor after alignment does not meet alignment standard
Rotor is counted, until the viscosimeter rotor meets the alignment standard.
Preferably, in the detecting step, using three-coordinates measuring machine measure the viscosimeter rotor length and with
The original length of the viscosimeter rotor compares.
Preferably, in the detecting step, the alignment standard is:The original length is 200mm-250mm, described
The measurement length of viscosimeter rotor and the difference of the original length are less than 1mm.
Preferably, which is used to be straightened the body of rod of the viscosimeter rotor.
Through the above technical solutions, by the two alignment grooves compressed toward each other, viscosimeter rotor can be carried out
It is comprehensive along its length to compress alignment, compared to the school that the aligning method only for some point is more concerned with whole curvature
Directly, effect is more prominent.
Other features and advantages of the present invention will be described in detail in subsequent specific embodiment part.
Description of the drawings
Attached drawing is to be used to provide further understanding of the present invention, an and part for constitution instruction, with following tool
Body embodiment is used to explain the present invention together, but is not construed as limiting the invention.In the accompanying drawings:
Fig. 1 is a kind of structural schematic diagram of the pedestal of specific implementation mode according to the present invention.
Fig. 2 is a kind of structural schematic diagram of the briquetting of specific implementation mode according to the present invention.
Fig. 3 is the structural schematic diagram of the pedestal being engaged with each other and briquetting of a kind of specific implementation mode according to the present invention.
Fig. 4 is a kind of sectional view of the first alignment groove of the pedestal of specific implementation mode according to the present invention.
Fig. 5 is a kind of section of the first rotor head pockets of the pedestal of specific implementation mode according to the present invention
Figure.
Fig. 6 is a kind of sectional view of the second alignment groove of the briquetting of specific implementation mode according to the present invention.
Fig. 7 is a kind of section of the second rotor head pockets of the briquetting of specific implementation mode according to the present invention
Figure.
Fig. 8 is stress decomposition diagram when viscosimeter rotor is contained in v-depression.
Reference sign
1 pedestal, 2 briquetting
11 first alignment 12 the first rotor head pockets of groove
13 locating rod, 14 screw rod
21 second alignment 22 second rotor head pockets of groove
23 location hole, 24 through-hole
25 handle members 26 pressure nut
Specific implementation mode
The specific implementation mode of the present invention is described in detail below in conjunction with attached drawing.It should be understood that this place is retouched
The specific implementation mode stated is merely to illustrate and explain the present invention, and is not intended to restrict the invention.
The present invention provides a kind of coalignments of viscosimeter rotor, wherein and the coalignment includes pedestal 1 and briquetting 2,
The top surface of pedestal 1 is formed with linearly extended first alignment groove 11, the bottom surface of briquetting 2 be formed with linear extension and with the first school
The second opposite alignment groove 21 of straight 11 position of groove, the bottom surface of briquetting 2 can be moved towards the top surface of pedestal 1 to be compressed, with logical
The side wall straightening for crossing the second alignment groove 21 is located at the first viscosimeter rotor being straightened in groove 11.
Viscosimeter rotor may include the body of rod, during stirring glass metal, due to by drag effect can the body of rod by
It gradually bends, which is to be straightened target.However, such bending is not only apparent " curved at some point
Folding ", but whole bending by a small margin, in the case, the central axis of the body of rod is formed as smooth curvature very little
Curve, i.e. " bending point " are one section of section, if using the method for suppressing some point whole alignment difficult to realize.
The present invention devise for accommodating and being straightened the body of rod groove (including first alignment groove 11 and second be straightened groove
21), first alignment groove 11 and second be straightened groove 21 each other gradually relative movement close to during, first be straightened groove 11
And second alignment groove 21 between accommodation space gradually reduce, while pass through first alignment groove 11 and second be straightened groove
21 side wall applies pressure to the body of rod, makes the part of bending gradually by straightening;In briquetting 2 and pedestal 1 gradually close mistake
Cheng Zhong, the body of rod along its length comprehensively (within the scope of incipient stage partial-length cannot fully by alignment pressure, but with
The body of rod is gradually straightened, and the body of rod in whole length ranges can be by the effect of alignment pressure) effect of being under pressure, it realizes whole
Sports school is straight.
Wherein, the first alignment groove 11 and second is straightened groove 21 respectively along linear extension, and specifically, cross section is along length
Degree direction should remain unchanged, and to ensure that everywhere side wall along its length synchronously can apply pressure to the body of rod, avoid
It exerts a force uneven and is straightened failure.
First alignment groove 11 and second be straightened groove 21 cross-sectional shape can there are many form, for example, it may be
The side wall of outstanding or recess arc, can also form flat side wall.Preferably, the first alignment groove 11 and second is straightened
The cross section of groove 21 is V-shaped.In v-depression, the body of rod of viscosimeter rotor can be gradually approaching to the bottom of groove,
During approaching, since the width of the horizontal space of groove gradually reduces, it can be kept in contact always with the body of rod and right
The body of rod applies alignment pressure.
In addition, as shown in figure 8, in v-depression (first alignment groove 11 or second be straightened groove 21), the body of rod can be by
It can be decomposed into the pressure F2 of horizontal direction and the pressure of vertical direction to the alignment pressure F perpendicular to side wall, alignment pressure F
F1, correspondingly, the bending that the body of rod is formed can also be decomposed into the offset of horizontal direction and the offset of vertical direction.In Fig. 8 only
Show the pressure schematic diagram of a side wall of one of v-depression, and when two v-depressions gradually relatively move compression
When, 4 side walls can apply the body of rod pressure F1 of the pressure F2 and 4 vertical directions of 4 horizontal directions, so as to bar
The offset of body horizontal direction and vertical direction is straightened, you can comprehensive alignment is carried out to the body of rod to realize.
Further, the V-arrangement angle in the section that the first alignment groove 11 and second is straightened groove 21 is 30 °~90 °.V-arrangement angle
Size selection should be subject to shank diameter size, it is preferable that the un-flexed body of rod of standard is positioned over the first alignment groove 11
Or second in alignment groove 21 when, the center line of the body of rod should be not less than the first alignment groove 11 or second and be straightened where groove 21
Surface, cannot fully be pressed in the body of rod to avoid another v-depression.First alignment groove 11 and second is straightened groove 21 can
To be the identical groove of shape, it is possible to have different V-arrangement angles or different depth.Due to the tapering characteristics of v-depression, originally
The device of invention is the case where keeping the size of v-depression (the first alignment groove 11 and second is straightened groove 21) to remain unchanged
Under, it can be adapted for the various sizes of body of rod in some diameter range, there is larger applicability, without being directed to each ruler
The very little body of rod replaces different pedestals 1 and briquetting 2.
In addition, the top surface of pedestal 1 is provided with guide part, briquetting 2 presses to the pedestal 1 along the guide part.Briquetting 2 presses to
During pedestal 1, it should avoid unexpected transverse shifting therefore, can only by manpower such operation difficult to realize as possible
Track when guide part restriction briquetting 2 presses to pedestal 1 is arranged, so that briquetting 2 is moved along a straight line, improve alignment effect;Together
When, pass through the position-limiting action of the guide part, it is also ensured that the second alignment groove 21 can be aligned in the first alignment groove 11.
The guide part can be there are many different form, for example, it may be sliding rail, briquetting 2 is slidably mounted on the cunning
On rail, the glide direction which limits can form receiving on the top surface of pedestal 1 or the top surface of pedestal 1
Slidably tube-like piece, briquetting 2 can move linearly briquetting 2 in the tube-like piece inner space.Preferably, as depicted in figs. 1 and 2,
The guide part is the locating rod 13 perpendicular to the top surface of pedestal 1, and briquetting 2 is formed with location hole 23 to allow the locating rod 13
It passes through.Clearance fit can be formed between location hole 23 and locating rod 13, and can be equipped with lubricant be used between profit
It is sliding.Locating rod 13 and the structure design of location hole 23 are by a relatively simple, and can realize the function of positioning and guiding substantially, ensure
Briquetting 2 is aligned with pedestal 1, and briquetting 2 can be compressed along straight line to pedestal 1, easy to operate.
Further, the coalignment further includes screw rod 14 and pressure nut 26, and the screw rod 14 is from the top of the pedestal 1
It extends perpendicularly out upwardly and the opposite through-hole 24 in position on the briquetting 2, what pressure nut 26 was set in screw rod 14 passes through through-hole
On 24 screw portion, moved towards pedestal 1 with squeezing briquetting 2 by pressing nut 26 by rotation.As shown in figure 3, by putting
Setting pressure nut 26 can gradually push briquetting 2 to be moved towards pedestal 1, and in the process, by pressing, nut 26 can incite somebody to action
The torque of input is converted into extruding force, the operation that pedestal 1 compresses briquetting 2 is directly toward compared to by manpower, by means of pressure
The mode of nut 26 is more laborsaving;It is bent alternatively, it is also possible to be driven by motor drive flywheel and by clutch, transmission gear
Handle link mechanism makes briquetting 2 be moved towards pedestal 1, or briquetting 2 can be driven to move by means of hydraulic cylinder, pneumatic cylinder etc..It applies
It presses nut 26 can be for common nut and by rotations such as spanners, or wing nut can be used without using other auxiliary
Assistant engineer has.
Wherein, the present invention viscosimeter rotor to be straightened includes the rotor head and the body of rod being connected with each other, the bar
Body is placed between the first alignment groove 11 and second alignment groove 21, shown in as shown in Figure 1, Figure 2, Fig. 4-Fig. 7, the first alignment groove
11 and second alignment groove 21 identical one end be respectively formed with the first rotor head pockets 12 and the second rotor head holds
Groove 22 is received to place the rotor head, the width of the first rotor head pockets 12 and the second rotor head pockets 22
Degree and depth are more than the width and depth that the first alignment groove 11 and second is straightened groove 21.The diameter of rotor head is more than described
The diameter of the body of rod, and rotor head does not need to be straightened, therefore the groove structure of width and depth bigger can be set
Rotor head is accommodated, and when rotor head is located in the groove, is substantially not subject to the effect of pressing force.Wherein, first turn
Subheader portion pockets 12 and the second rotor head pockets 22 can form semicircular cross section, can also form rectangle
Etc. shapes.
In addition, the top surface of briquetting 2 is equipped with handle member 25, which can be lifted far from pedestal 1 by the handle member 25.
Certainly, the other positions in briquetting 2 can also be arranged in handle member 25, if do not hinder briquetting 2 to press to pedestal 1, such as can
To be arranged on the side of briquetting 2.
In addition, the present invention also provides a kind of aligning methods of viscosimeter rotor, wherein the aligning method use according to
The coalignment of viscosimeter rotor described in any one of upper scheme, the aligning method include:Viscosimeter rotor is placed
In the first alignment groove 11 of the pedestal 1;The second alignment groove 21 of the briquetting 2 is set to be aligned in first alignment recessed
Slot 11 pushes briquetting 2 to be moved towards pedestal 1 and compresses, to be straightened the viscosimeter rotor.
As described above, viscosimeter rotor may include the body of rod, which is formed as straight cylindrical regular shape, with
There is different rotating speed and resistance, to according to rotating speed and Resistance Pressure information under the influence of when stirring glass metal in viscosity of glass metal
Calculate the viscosity of glass metal.Therefore, viscosimeter rotor should be kept straight, and surface keeps cleaning.
In addition, the aligning method further includes cleaning:It is cleared up by 800 DEG C~900 DEG C of high temperature quenching and waits being straightened
Viscosimeter rotor surface.Being formed in the glass residue of viscosimeter rotor surface not only influences measurement accuracy, also directly affects
Alignment operation.The glass residue for being attached to viscosimeter rotor surface can be used gradually to melt and fall off under the high temperature conditions,
Avoid the residue that viscosimeter rotor is made to be straightened discontinuity in groove 21 in the first alignment groove 11 and second.
In addition, the cleaning further includes:Use quality percentage is described in the HF solution soaking and washings of 10%-40%
Viscosimeter rotor 4h-10h.For the glass residue that can not be melted at high temperature, can use can erode the strong of glass
Sour HF solution is cleared up, and the viscosimeter rotor is also correspondingly by being not easy to be made by the material of HF solution corrosions, such as platinum
Rhodium alloy.
In addition, the aligning method further includes detecting step:Whether the viscosimeter rotor after detection alignment meets alignment mark
Standard is continuing with the coalignment and is straightened the viscosimeter if the viscosimeter rotor after alignment does not meet alignment standard
Rotor, until the viscosimeter rotor meets the alignment standard.The compression alignment of single may not make the viscosimeter
Rotor reaches the alignment standard, therefore, can continue to be straightened the viscosimeter rotor after sensing, and can change
(for example, rotating some angle, 90 °, 45 ° etc.) implements alignment operation behind the position of the viscosimeter rotor.
Specifically, in the detecting step, using three-coordinates measuring machine measure the viscosimeter rotor length and with
The original length of the viscosimeter rotor compares.The length of viscosimeter rotor after bending is less than its original length, therefore can root
According to the length of viscosimeter rotor this parameter measure its whether enough " straight ".
Specifically, in the detecting step, the alignment standard is:The original length is 200mm-250mm, described
The measurement length of viscosimeter rotor and the difference of the original length are less than 1mm.
As described above, the aligning method is used to be straightened the body of rod of the viscosimeter rotor, for the viscosimeter rotor
Rotor head does not make alignment processing.
The preferred embodiment of the present invention is described in detail above in association with attached drawing, still, the present invention is not limited to above-mentioned realities
The detail in mode is applied, within the scope of the technical concept of the present invention, a variety of letters can be carried out to technical scheme of the present invention
Monotropic type, these simple variants all belong to the scope of protection of the present invention.
It is further to note that specific technical features described in the above specific embodiments, in not lance
In the case of shield, can be combined by any suitable means, in order to avoid unnecessary repetition, the present invention to it is various can
The combination of energy no longer separately illustrates.
In addition, various embodiments of the present invention can be combined randomly, as long as it is without prejudice to originally
The thought of invention, it should also be regarded as the disclosure of the present invention.